FloatValidatorTest.java
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* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.commons.validator.routines;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertFalse;
import static org.junit.jupiter.api.Assertions.assertNull;
import static org.junit.jupiter.api.Assertions.assertTrue;
import java.text.DecimalFormat;
import java.util.Locale;
import org.junit.jupiter.api.BeforeEach;
import org.junit.jupiter.api.Test;
/**
* Test Case for FloatValidator.
*/
class FloatValidatorTest extends AbstractNumberValidatorTest {
@BeforeEach
protected void setUp() {
validator = new FloatValidator(false, 0);
strictValidator = new FloatValidator();
testPattern = "#,###.#";
// testValidateMinMax()
max = Float.valueOf(Float.MAX_VALUE);
maxPlusOne = Double.valueOf(max.doubleValue() * 10);
min = Float.valueOf(Float.MAX_VALUE * -1);
minMinusOne = Double.valueOf(min.doubleValue() * 10);
// testInvalidStrict()
invalidStrict = new String[] { null, "", "X", "X12", "12X", "1X2" };
// testInvalidNotStrict()
invalid = new String[] { null, "", "X", "X12" };
// testValid()
testNumber = Float.valueOf(1234.5f);
testZero = Float.valueOf(0);
validStrict = new String[] { "0", "1234.5", "1,234.5" };
validStrictCompare = new Number[] { testZero, testNumber, testNumber };
valid = new String[] { "0", "1234.5", "1,234.5", "1,234.5", "1234.5X" };
validCompare = new Number[] { testZero, testNumber, testNumber, testNumber, testNumber };
testStringUS = "1,234.5";
testStringDE = "1.234,5";
// Localized Pattern test
localeValue = testStringDE;
localePattern = "#.###,#";
testLocale = Locale.GERMANY;
localeExpected = testNumber;
}
/**
* Test Float Range/Min/Max
*/
@Test
void testFloatRangeMinMax() {
final FloatValidator validator = (FloatValidator) strictValidator;
final Float number9 = validator.validate("9", "#");
final Float number10 = validator.validate("10", "#");
final Float number11 = validator.validate("11", "#");
final Float number19 = validator.validate("19", "#");
final Float number20 = validator.validate("20", "#");
final Float number21 = validator.validate("21", "#");
// Test isInRange()
assertFalse(validator.isInRange(number9, 10, 20), "isInRange() < min");
assertTrue(validator.isInRange(number10, 10, 20), "isInRange() = min");
assertTrue(validator.isInRange(number11, 10, 20), "isInRange() in range");
assertTrue(validator.isInRange(number20, 10, 20), "isInRange() = max");
assertFalse(validator.isInRange(number21, 10, 20), "isInRange() > max");
// Test minValue()
assertFalse(validator.minValue(number9, 10), "minValue() < min");
assertTrue(validator.minValue(number10, 10), "minValue() = min");
assertTrue(validator.minValue(number11, 10), "minValue() > min");
// Test minValue()
assertTrue(validator.maxValue(number19, 20), "maxValue() < max");
assertTrue(validator.maxValue(number20, 20), "maxValue() = max");
assertFalse(validator.maxValue(number21, 20), "maxValue() > max");
}
/**
* Test Float validation for values too small to handle. (slightly different from max/min which are the largest +ve/-ve
*/
@Test
void testFloatSmallestValues() {
final String pattern = "#.#################################################################";
final DecimalFormat fmt = new DecimalFormat(pattern);
// Validate Smallest +ve value
final Float smallestPositive = Float.valueOf(Float.MIN_VALUE);
final String strSmallestPositive = fmt.format(smallestPositive);
assertEquals(smallestPositive, FloatValidator.getInstance().validate(strSmallestPositive, pattern), "Smallest +ve");
// Validate Smallest -ve value
final Float smallestNegative = Float.valueOf(Float.MIN_VALUE * -1);
final String strSmallestNegative = fmt.format(smallestNegative);
assertEquals(smallestNegative, FloatValidator.getInstance().validate(strSmallestNegative, pattern), "Smallest -ve");
// Validate Too Small +ve
final Double tooSmallPositive = Double.valueOf((double) Float.MIN_VALUE / (double) 10);
final String strTooSmallPositive = fmt.format(tooSmallPositive);
assertFalse(FloatValidator.getInstance().isValid(strTooSmallPositive, pattern), "Too small +ve");
// Validate Too Small -ve
final Double tooSmallNegative = Double.valueOf(tooSmallPositive.doubleValue() * -1);
final String strTooSmallNegative = fmt.format(tooSmallNegative);
assertFalse(FloatValidator.getInstance().isValid(strTooSmallNegative, pattern), "Too small -ve");
}
/**
* Test FloatValidator validate Methods
*/
@Test
void testFloatValidatorMethods() {
final Locale locale = Locale.GERMAN;
final String pattern = "0,00,00";
final String patternVal = "1,23,45";
final String localeVal = "12.345";
final String germanPatternVal = "1.23.45";
final String defaultVal = "12,345";
final String xxxx = "XXXX";
final Float expected = Float.valueOf(12345);
assertEquals(expected, FloatValidator.getInstance().validate(defaultVal), "validate(A) default");
assertEquals(expected, FloatValidator.getInstance().validate(localeVal, locale), "validate(A) locale");
assertEquals(expected, FloatValidator.getInstance().validate(patternVal, pattern), "validate(A) pattern");
assertEquals(expected, FloatValidator.getInstance().validate(germanPatternVal, pattern, Locale.GERMAN), "validate(A) both");
assertTrue(FloatValidator.getInstance().isValid(defaultVal), "isValid(A) default");
assertTrue(FloatValidator.getInstance().isValid(localeVal, locale), "isValid(A) locale");
assertTrue(FloatValidator.getInstance().isValid(patternVal, pattern), "isValid(A) pattern");
assertTrue(FloatValidator.getInstance().isValid(germanPatternVal, pattern, Locale.GERMAN), "isValid(A) both");
assertNull(FloatValidator.getInstance().validate(xxxx), "validate(B) default");
assertNull(FloatValidator.getInstance().validate(xxxx, locale), "validate(B) locale ");
assertNull(FloatValidator.getInstance().validate(xxxx, pattern), "validate(B) pattern");
assertNull(FloatValidator.getInstance().validate(patternVal, pattern, Locale.GERMAN), "validate(B) both");
assertFalse(FloatValidator.getInstance().isValid(xxxx), "isValid(B) default");
assertFalse(FloatValidator.getInstance().isValid(xxxx, locale), "isValid(B) locale");
assertFalse(FloatValidator.getInstance().isValid(xxxx, pattern), "isValid(B) pattern");
assertFalse(FloatValidator.getInstance().isValid(patternVal, pattern, Locale.GERMAN), "isValid(B) both");
}
}